Track 19: Quantum electrodynamics (QED)
In molecule material science, quantum electrodynamics (QED) is the relativistic quantum field hypothesis of electrodynamics. In quintessence, it depicts how light and matter connected and is the primary hypothesis where full assention between quantum mechanics and uncommon relativity is accomplished. QED scientifically depicts all wonders including electrically charged particles connection by implies of trade of photons and speaks to the quantum partner of classical electromagnetism giving a total account of matter and light interaction.
In specialized terms, QED can be depicted as a annoyance hypothesis of the electromagnetic quantum vacuum. Richard Feynman called it "the gem of material science" for its amazingly accurate predictions of amounts just like the atypical attractive minute of the electron and the Sheep move of the vitality levels of hydrogen.
Related Conference of Track 19: Quantum electrodynamics (QED)
December 12-13, 2024
4th International Conference on Applied Physics and Materials Science
Rome, Italy
June 19-20, 2025
8th International Conference on Astronomy, Astrophysics and Space Science
Budapest, Hungary
Track 19: Quantum electrodynamics (QED) Conference Speakers
Recommended Sessions
- Track 10: Quantum Chemistry
- Track 11: Quantum entanglement
- Track 12: Quantum Field Theory (QFT)
- Track 13: Quantum Sensing
- Track 14: Astrophysics
- Track 15: Quantum Simulation
- Track 16: Quantum numbers and orbitals
- Track 17: Quantum Information Science(QIS)
- Track 18: Molecular Physics
- Track 19: Quantum electrodynamics (QED)
- Track 1: Quantum Technology
- Track 20: In-depth Quantum Physics
- Track 2: Quantum Computing
- Track 3: Nuclear physics
- Track 4: Wave function
- Track 5: Quantum Dynamics
- Track 6: Quantum Materials
- Track 7: Quantum cryptography
- Track 8: Quantum Mechanics
- Track 9: Quantum Gravity
Related Journals
Are you interested in
- Advanced cryptography - QUANTUM PHYSICS 2025 (UAE)
- Applied Physics - PHYSICS CONGRESS 2025 (USA)
- Astrochemistry - ASTRO PHYSICS 2025 (Hungary)
- Astroparticle Physics - ASTRO PHYSICS 2025 (Hungary)
- Astrophysical Magnetic Fields - ASTRO PHYSICS 2025 (Hungary)
- Astrophysical Plasmas - ASTRO PHYSICS 2025 (Hungary)
- Astrophysical Turbulence - ASTRO PHYSICS 2025 (Hungary)
- Astrophysics - QUANTUM PHYSICS 2025 (UAE)
- Astrophysics of Compact Objects - ASTRO PHYSICS 2025 (Hungary)
- Astrophysics, cosmology, and space exploration - PHYSICS CONGRESS 2025 (USA)
- Atomic, Molecular & Optical Physics - PHYSICS CONGRESS 2025 (USA)
- Atomic, Molecular and Optical Physics - QUANTUM PHYSICS 2025 (UAE)
- Classical & Modern Physics - PHYSICS CONGRESS 2025 (USA)
- Condensed Matter Physics - PHYSICS CONGRESS 2025 (USA)
- Cosmology and the Early Universe - ASTRO PHYSICS 2025 (Hungary)
- Electromagnetism and Electronics - PHYSICS CONGRESS 2025 (USA)
- Emerging Trends in Quantum Physics - QUANTUM PHYSICS 2025 (UAE)
- Entangled Communication Systems - QUANTUM PHYSICS 2025 (UAE)
- Exoplanet Atmospheres - ASTRO PHYSICS 2025 (Hungary)
- Fundamental Dynamics - QUANTUM PHYSICS 2025 (UAE)
- Fundamental Optics and Photonics - QUANTUM PHYSICS 2025 (UAE)
- Fundamental Physics: Quantum Mechanics and Relativity - PHYSICS CONGRESS 2025 (USA)
- Future directions and emerging trends in science - PHYSICS CONGRESS 2025 (USA)
- Gauss law, Electric Work and Energy - PHYSICS CONGRESS 2025 (USA)
- Gravitational Wave Astronomy - ASTRO PHYSICS 2025 (Hungary)
- Heavy-Ion-Physics - PHYSICS CONGRESS 2025 (USA)
- High Energy Nuclear Physics - PHYSICS CONGRESS 2025 (USA)
- High-Energy Astrophysics - ASTRO PHYSICS 2025 (Hungary)
- High-Redshift Universe - ASTRO PHYSICS 2025 (Hungary)
- In-depth Quantum Physics - QUANTUM PHYSICS 2025 (UAE)
- Innovative Experimental Techniques - PHYSICS CONGRESS 2025 (USA)
- Instrumentation and Technology Development - ASTRO PHYSICS 2025 (Hungary)
- Interdisciplinary Applications of Physics - PHYSICS CONGRESS 2025 (USA)
- Laser Physics / Plasma Physics / Nuclear Physics - PHYSICS CONGRESS 2025 (USA)
- Material Physics - PHYSICS CONGRESS 2025 (USA)
- Nano-Physics - PHYSICS CONGRESS 2025 (USA)
- Nuclear physics - QUANTUM PHYSICS 2025 (UAE)
- Observational Astronomy - ASTRO PHYSICS 2025 (Hungary)
- Particle Physics - QUANTUM PHYSICS 2025 (UAE)
- Particle Physics and high-energy Physics - PHYSICS CONGRESS 2025 (USA)
- Photon Imaging - QUANTUM PHYSICS 2025 (UAE)
- Physics - PHYSICS CONGRESS 2025 (USA)
- Planetary Science and Exploration - ASTRO PHYSICS 2025 (Hungary)
- Polarization in Astrophysics - ASTRO PHYSICS 2025 (Hungary)
- Quantum Astrophysics - ASTRO PHYSICS 2025 (Hungary)
- Quantum Chemistry - QUANTUM PHYSICS 2025 (UAE)
- Quantum Computing - QUANTUM PHYSICS 2025 (UAE)
- Quantum Field Theory (QFT) - QUANTUM PHYSICS 2025 (UAE)
- Quantum Materials - QUANTUM PHYSICS 2025 (UAE)
- Quantum Mechanics - QUANTUM PHYSICS 2025 (UAE)
- Quantum numbers and orbitals - QUANTUM PHYSICS 2025 (UAE)
- Quantum Sensing - QUANTUM PHYSICS 2025 (UAE)
- Quantum Technology - QUANTUM PHYSICS 2025 (UAE)
- Radio Astronomy - ASTRO PHYSICS 2025 (Hungary)
- Relativistic Astrophysics - ASTRO PHYSICS 2025 (Hungary)
- Semiconductor Physics - PHYSICS CONGRESS 2025 (USA)
- Solar and Space Physics - ASTRO PHYSICS 2025 (Hungary)
- Solar System Dynamics - ASTRO PHYSICS 2025 (Hungary)
- Space Mission Operations and Management - ASTRO PHYSICS 2025 (Hungary)
- Space Telescopes and Missions - ASTRO PHYSICS 2025 (Hungary)
- Spin-Quantum Technologies - QUANTUM PHYSICS 2025 (UAE)
- Stellar Astrophysics - ASTRO PHYSICS 2025 (Hungary)
- Supernova Remnants - ASTRO PHYSICS 2025 (Hungary)
- Theoretical Physics and mathematical models - PHYSICS CONGRESS 2025 (USA)
- Topological physics - QUANTUM PHYSICS 2025 (UAE)
- Wave function - QUANTUM PHYSICS 2025 (UAE)